KR20190031546A - Method and apparatus for removing parasitic capacitance - Google Patents

Abstract

The present invention discloses a method and apparatus for removing a parasitic capacitance. The method includes the steps of inputting a first analog signal to a plurality of source lines in a touch scan period and inputting a second analog signal to a plurality of multiplex lines, To be removed; The first analog signal and the touch scan signal input to the common electrode have the same or similar waveforms, and the waveform of the touch scan signal input to the second analog signal and the common electrode is similar, And the second analog waveform includes a first target high level and a second target high level and the second analog waveform includes a first target low level and a second target low level, Level, a first target high level, a second target high level, a first target low level, and a second target low level, wherein the first target high level and the second target high level are generated through different modules, The first target low level and the second target low level are generated through different modules.

Description

Method and apparatus for removing parasitic capacitance

The present invention claims priority to the earlier application filed on August 3, 2016 entitled " Method and Apparatus for Removing Parasitic Capacity ", and Application No. 201610628812.X, the contents of which are incorporated by reference It is merged into the text.

Field of the Invention [0002] The present invention relates to a touch screen field, and more particularly, to a method and apparatus for removing parasitic capacitance.

With the rapid development of display technology, touch screen panels have already become more common in people's daily lives. Currently, the touch screen is classified into an add-on touch panel and an in-cell touch panel depending on the structure. The attachable touch screen is manufactured by separating the touch screen and the liquid crystal display (LCD) and then attaching them together to form a liquid crystal display having a touch function. This is because the light transmittance is low and the module is thick There are disadvantages. On the other hand, the built-in touch screen incorporates the touch electrode of the touch screen inside the liquid crystal display, thereby reducing the overall thickness of the module and improving the light transmittance.

Conventional in-cell touch technologies include hybrid in-cell touch technology and full in-cell touch technology. The structure of the full in-cell touchscreen is simpler and more popular. However, the parasitic capacitance exists in the full in-cell touch screen, which affects the touch scan signal input during the touch scan, thereby reducing the signal-to-noise ratio in the touch scan.

SUMMARY OF THE INVENTION The present invention provides a method and apparatus for removing a parasitic capacitance that can reduce the influence of a parasitic capacitance existing in a full in-cell touch screen on a touch scan signal input thereto.

The touch panel includes a plurality of gate lines, a plurality of source lines, a plurality of common electrode lines, and a plurality of multiplex lines. Wherein the extending direction and the extension direction of the source line are parallel, the common electrode includes a plurality of sensing blocks, the common electrode is reused as a touch driving electrode, the plurality of common electrode lines are connected to a plurality of sensing blocks, Each of the plurality of multiplex lines is connected to the plurality of gate lines, and the scan period includes a display scan period and a touch scan period,

A first analog signal is input to the plurality of source lines, a second analog signal is input to the plurality of multiplex lines, and a third analog signal is input to the plurality of gate lines, The parasitic capacitance formed between the plurality of gate lines, the plurality of source lines, the plurality of common electrodes, and the plurality of sensing blocks is removed;

The waveform of the scan signal input to the common electrode is similar to that of the scan signal input to the common electrode. The waveform of the scan signal input to the common electrode is similar.

Alternatively, the second analog waveform includes a first target high level and a second target high level, the second analog waveform includes a first target low level and a second target low level, Level and the second target high level are generated through different VGH modules, and the first target low level and the second target low level are generated through different VGL modules.

Optionally, the first target high level is generated via a first VGH module, the second target high level is generated via a second VGH module, and the first target low level is generated via a first VGL module , And the second target low level is generated through the second VGL module.

Alternatively, the first target high level> the second target high level> the first target low level> the second target low level.

Alternatively, the waveforms of the first analog signal and the scan signal input to the common electrode are completely the same.

The touch panel includes a plurality of gate lines, a plurality of source lines, a plurality of common electrode lines, and a plurality of multiplex lines, The extending direction of the source line and the extension direction of the source line are parallel, the common electrode includes a plurality of sensing blocks, the common electrode is reused as a touch driving electrode, and the plurality of common electrode lines are connected to a plurality of sensing blocks Each of the plurality of multiplex lines is connected to the plurality of gate lines, wherein the scan period includes a display scan period and a touch scan period, and the apparatus includes a first input module, a second input module, By including an input module,

Wherein the first input module is used to input a first analog signal to the plurality of source lines in a touch scan period and the second input module is used to input a second analog signal to the plurality of multiplex lines, The third input module is used to input the third analog signal to the plurality of gate lines so that the parasitic capacitance formed between the plurality of gate lines, the plurality of source lines, the plurality of common electrodes, and the plurality of sensing blocks is removed and;

The waveform of the scan signal input to the common electrode is similar to that of the scan signal input to the common electrode. The waveform of the scan signal input to the common electrode is similar.

Alternatively, the second analog waveform includes a first target high level and a second target high level, the second analog waveform includes a first target low level and a second target low level, Level and the second target high level are generated through different VGH modules, and the first target low level and the second target low level are generated through different VGL modules.

Optionally, the first target high level is generated via a first VGH module, the second target high level is generated via a second VGH module, and the first target low level is generated via a first VGL module , And the second target low level is generated through the second VGL module.

Alternatively, the first target high level> the second target high level> the first target low level> the second target low level.

Alternatively, the waveforms of the first analog signal and the scan signal input to the common electrode are completely the same.

In the embodiment of the present invention, a first analog signal, which is similar to the waveform of the touch scan signal input to the common electrode in a plurality of source lines, is applied to a second The analog signal and the third analog signal similar to the waveform of the touch scan signal inputted to the common electrode on the plurality of gate lines are inputted respectively so that the parasitic capacitance existing in the full in- Can be reduced.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. It should be apparent to those skilled in the art, on the premise that there is no creative labor, to derive other figures based on these drawings, since the following description is merely some embodiments of the present invention.
1 is a structural explanatory view of a touch display panel of a built-in touch screen disclosed in the related art.
2 is an explanatory view of a sensing block of a full in-cell touch screen provided in the related art.
FIG. 3 is an equivalent circuit diagram of the parasitic capacitance of a pull-in cell touch screen provided in the prior art.
4 is a flowchart for inputting a first analog signal, a second analog signal, and a third analog signal in the parasitic capacitance removal method provided by the embodiment of the present invention.
5 is a structural explanatory diagram of a generation module of a first target high level, a second target high level, a first target low level, and a second target low level, which are provided in the prior art.
6 is a structural explanatory diagram of a generation module of a first target high level, a second target high level, a first target low level and a second target low level provided in the embodiment of the present invention.
7 is a structural explanatory diagram of a parasitic capacitance removing apparatus provided in an embodiment of the present invention.

For easier understanding, the text first introduces the structure and scanning method of the built-in touch screen. Referring to FIG. 1, FIG. 1 is a structural explanatory view of a touch display panel of a built-in touch screen disclosed in the related art. The touch display panel shown in FIG. 1 includes a driving IC, a plurality of gate lines 1, a plurality of source lines (not shown), a plurality of common electrode lines 2, and a plurality of multiplex lines (not shown) As shown in FIG. 2, the common electrode on the module side is formed by a plurality of small sensing blocks 110 (sensor pads) A plurality of common electrode lines 2 are connected to a plurality of sensing blocks 110, respectively, and a plurality of multiplex lines are connected to a plurality of gate lines 1, respectively.

In order to reduce the overall thickness of the module, the common electrode is typically reused as a touch-driven electrode. Therefore, in order to simultaneously implement the display function and the touch function, one scan period must be divided into at least two portions, a display scan period and a touch scan period. In the display scan period, the driving IC inputs a display scan signal to a plurality of gate lines 1, inputs a VCOM voltage to the sensing block 110, performs a display scan under a combination of a display scan signal and a VCOM voltage ; In the touch scan period, the driving IC inputs a touch scan signal to a plurality of touch induction electrodes, inputs a pulse voltage to the sensing block 110, and performs a touch scan under a combination of a touch scan signal and a pulse voltage.

However, since two adjacent metals can constitute one capacitance, an equivalent circuit diagram formed between the gate line, the common electrode line 1, the common electrode line 2, and the source line is shown in FIG. 3 Same as. Here, taking one sensing block 110 as an example, the electrostatic capacitance between the common electrode line 1 and the common electrode line 2 may be equivalent to the electrostatic capacitance S1, The electrostatic capacitance between the common electrode line 1 and the source line can be equivalent to the capacitance between the common electrode line 1 and the source line, The electrostatic capacity may be equivalent to (S4), and the electrostatic capacitance between the gate line and the source line may be equivalent to (S5). In the case of inputting the pulse-type touch scan voltage to the sensing block 110 due to the presence of the capacitances S1 to S5, all input on the gate line and the source line are DC voltage. Therefore, the charge / discharge effect of the capacitance is generated. This affects the touch scan signal input during the touch scan, thereby reducing the signal-to-noise ratio at the time of the touch scan.

In order to solve the above technical problems, an embodiment of the present invention provides a method of removing parasitic capacitance, the method including the following. In the touch scan period, a first analog signal is input to a plurality of source lines, a second analog signal is input to a plurality of multiplex lines, and a third analog signal is input to a plurality of gate lines, The parasitic capacitance formed between the plurality of source lines, the plurality of common electrodes, and the plurality of sensing blocks is removed. The waveforms of the first analog signal and the touch scan signal input to the common electrode are similar, and the waveforms of the second analog signal and the touch scan signal input to the common electrode are similar. The waveform of the touch scan signal is similar.

The fact that the first analog signal, the second analog signal, and the third analog signal are all analogous to the touch scan signal input to the common electrode means that when the pulse touch scan signal is at the high level, the first analog signal, And the third analog signal are also at a high level, and when the pulse-type touch scan signal is at a low level, the first analog signal, the second analog signal, and the third analog signal are also at a low level. When the first analog signal, the second analog signal, the third analog signal, and the touch scan signal are both high level (or low level), the gate line, the common electrode line 1, the common electrode line 2, It is understood that the charge / discharge effect of the parasitic capacitances S1 to S5 between the gate line, the common electrode line 1, the common electrode line 2, and the source line is reduced.

In a practicable embodiment, in the touch scan cycle, the original DC voltage value on the plurality of source lines is 0, so that the first analog signal input to the source line in the driver IC and the touch scan signal are the same voltage; Since the original voltage on the plurality of multiplex lines is VGH, the second analog signal input to the multiplex line in the driving IC includes the first target high level and the second target high level, Level is greater than the second target high level, the values of the first target high level and the second target high level are not significantly different from the value of the VGH voltage; Since the original voltage on the gate line is VGL, the third analog signal input to the gate line in the driving IC includes a first target low level and a second target low level, of which the first target low level is the second The values of the first target low level and the second target low level are not significantly different from the values of the VGL voltage. Under some circumstances, the second target high level can be made larger than the first target low level.

As shown in Figure 5, in the prior art, a module has only one VGH module and one VGL module. However, both the conventional VGH module and the VGL module have a multiple output function, and different voltages can be output through different channels by selecting different modes. Accordingly, the first target high level and the second target high level can be generated through the VGH module, and the first target low level and the second target low level can be generated through the VGL module.

However, under such a scheme, the conversion efficiency of the voltage is not so high. Therefore, in order to improve the voltage conversion efficiency, the first target high level and the second target high level are generated by different VGH modules, and the first target low level and the second target low level are supplied to different VGL modules . ≪ / RTI > For example, as shown in FIG. 6, two VGH modules including a first VGH module and a second VGH module are installed in the module, and two VGL modules including a first VGL module and a second VGL module are provided. Install more modules. Wherein a first target high level is generated via a first VGH module and a second target high level is generated via a second VGH module, a first target low level is generated via a first VGL module, The target low level is generated via the second VGL module. By generating the first target high level and the second target high level through the different VGH modules respectively and generating the first target low level and the second target low level respectively through the different VGL modules, Can be improved.

In the foregoing, the method of an embodiment of the present invention has been described in detail. In the following description, in order to more easily implement the above-described methods of the embodiments of the present invention, apparatuses used in combination in order to implement the above- to provide.

Referring to Fig. 7, Fig. 7 provides an apparatus for removing parasitic capacitance. The device 70 of the present embodiment includes a plurality of gate lines, a plurality of source lines, a plurality of common electrode lines, and a plurality of multiplex lines, wherein the extending direction of the plurality of common electrodes and the extension direction of the source lines are Wherein the common electrode includes a plurality of sensing blocks, the common electrode is reused as a touch driving electrode, the plurality of common electrode lines are each connected to a plurality of sensing blocks, and the plurality of multiplex lines are respectively connected to the plurality And the device 70 includes a first input module 71, a second input module 72, and a third input module 72. The first input module 71, the second input module 72, (73).

The first input module 71 is used to input a first analog signal to the plurality of source lines in a touch scan period and the second input module 72 is used to input a second analog signal to the plurality of multiplex lines And the third input module 73 is used to input a third analog signal to the plurality of gate lines so that the plurality of gate lines, the plurality of source lines, the plurality of common electrodes, Thereby eliminating the parasitic capacitance formed between the source and drain. The waveform of the scan signal input to the common electrode is similar to that of the scan signal input to the common electrode. The waveform of the scan signal input to the common electrode is similar.

Alternatively, the second analog waveform includes a first target high level and a second target high level, the second analog waveform includes a first target low level and a second target low level, Level and the second target high level are generated through different VGH modules, and the first target low level and the second target low level are generated through different VGL modules.

Optionally, the first target high level is generated via a first VGH module, the second target high level is generated via a second VGH module, and the first target low level is generated via a first VGL module , And the second target low level is generated through the second VGL module.

Alternatively, the first target high level> the second target high level> the first target low level> the second target low level.

Alternatively, the waveform of the first analog signal and the scan signal input to the common electrode are completely the same.

In the embodiment of the present invention, a first analog signal, which is similar to the waveform of the touch scan signal input to the common electrode in a plurality of source lines, is applied to a second The analog signal and the third analog signal similar to the waveform of the touch scan signal inputted to the common electrode on the plurality of gate lines are inputted respectively so as to reduce the influence of the parasitic capacitance present on the full inlencel touch screen on the inputted touch scan signal .

Those skilled in the art will understand and implement all or some of the processes in the above-described exemplary embodiments, and can be accomplished by directing the relevant hardware through a computer program, which can be stored in a computer-readable storage medium, When the program is executed, it may include a process of an embodiment of each of the above-described methods. The storage medium may include a magnetic disk, an optical disk, a read-only memory (ROM), a random access memory (RAM), or the like.

It is to be understood that the scope of the present invention is not limited thereto. Those skilled in the art will understand and implement all or some of the processes of the above-described embodiments, and equivalent changes made based on the scope of the present invention belong to the scope of the present invention.

Claims (10)

In the method for removing parasitic capacitance,
The touch display panel includes a plurality of gate lines, a plurality of source lines, a plurality of common electrode lines, and a plurality of multiplex lines. The extension direction of the plurality of common electrodes and the extending direction of the source lines are parallel, Wherein the common electrode is reused as a touch driving electrode, the plurality of common electrode lines are connected to a plurality of sensing blocks, respectively, and the plurality of multiplex lines are connected to the plurality of gate lines Among them, the scan period includes a display scan period and a touch scan period,
A first analog signal is input to the plurality of source lines, a second analog signal is input to the plurality of multiplex lines, and a third analog signal is input to the plurality of gate lines, The parasitic capacitance formed between the plurality of gate lines, the plurality of source lines, the plurality of common electrodes, and the plurality of sensing blocks is removed;
The waveform of the scan signal input to the common electrode is similar to that of the scan signal input to the common electrode. Wherein the waveform of the scan signal input to the common electrode is similar. The method according to claim 1,
Wherein the second analog waveform includes a first target high level and a second target high level and the second analog waveform includes a first target low level and a second target low level, Wherein the second target high level is generated through a different VGH module, and wherein the first target low level and the second target low level are generated through different VGL modules. 3. The method of claim 2,
Wherein the first target high level is generated through a first VGH module and the second target high level is generated through a second VGH module, the first target low level is generated through a first VGL module, 2 target low level is generated through the second VGL module. 3. The method of claim 2,
The first target high level> the second target high level> the first target low level> the second target low level. The method according to claim 1,
Wherein waveforms of the first analog signal and the scan signal input to the common electrode are completely equal. In the apparatus for removing parasitic capacitance,
The touch display panel includes a plurality of gate lines, a plurality of source lines, a plurality of common electrode lines, and a plurality of multiplex lines. The extension direction of the plurality of common electrodes and the extending direction of the source lines are parallel, Wherein the common electrode is reused as a touch driving electrode, the plurality of common electrode lines are connected to a plurality of sensing blocks, respectively, and the plurality of multiplex lines are connected to the plurality of gate lines Wherein the scan period includes a display scan period and a touch scan period, and the apparatus includes a first input module, a second input module, and a third input module,
Wherein the first input module is used to input a first analog signal to the plurality of source lines in a touch scan period and the second input module is used to input a second analog signal to the plurality of multiplex lines, The third input module is used to input the third analog signal to the plurality of gate lines so that the parasitic capacitance formed between the plurality of gate lines, the plurality of source lines, the plurality of common electrodes, and the plurality of sensing blocks is removed and;
The waveform of the scan signal input to the common electrode is similar to that of the scan signal input to the common electrode. Wherein waveforms of the scan signals input to the common electrode are similar. The method according to claim 6,
Wherein the second analog waveform includes a first target high level and a second target high level and the second analog waveform includes a first target low level and a second target low level, Wherein the second target high level is generated through different VGH modules, and wherein the first target low level and the second target low level are generated through different VGL modules. 8. The method of claim 7,
Wherein the first target high level is generated through a first VGH module and the second target high level is generated through a second VGH module, the first target low level is generated through a first VGL module, 2 target low level is generated through the second VGL module. 9. The method of claim 8,
The first target high level> the second target high level> the first target low level> the second target low level. 8. The method of claim 7,
Wherein waveforms of the first analog signal and the scan signal input to the common electrode are completely equal.

Images